Identifying Data 2017/18
Subject (*) Inorganic Chemistry 3 Code 610G01023
Study programme
Grao en Química
Descriptors Cycle Period Year Type Credits
Graduate 1st four-month period
 Third Obligatoria 6
Language
Spanish
Galician
English
Teaching method Face-to-face
Prerequisites
Department Química
Coordinador
Esteban Gomez, David
 E-mail
david.esteban@udc.es
Lecturers
Esteban Gomez, David
Platas Iglesias, Carlos
 E-mail
david.esteban@udc.es
carlos.platas.iglesias@udc.es
Web
General description A Química Inorgánica 3 é unha materia obrigatoria do primeiro semestre do terceiro curso do Grao en Química. Dita materia pertence ao módulo "Química Inorgánica" e está dedicada ao estudo dos Compostos de Coordinación e dos Sólidos Inorgánicos, tanto dende o punto de vista estrutural e da ligazón, como do da reactividade dos primeiros. As competencias adquiridas nesta materia resultan indispensables para a materia "Química Inorgánica 4", xunto coa cal conforma a materia denominada "Ampliación de Química Inorgánica". Para o estudo da devandita materia é imprescindible ter ben asentadas as competencias asociadas ás Químicas Inorgánicas 1 e 2 do segundo curso e ás Químicas Físicas 1 e 2, tamén de segundo curso. Á súa vez, as competencias da materia "Ampliación de Química Inorgánica" son necesarias para abordar as materias "Química Inorgánica Avanzada" e "Ciencias de Materiais" do cuarto curso.

Study programme competencies
Code Study programme competences
A1 Ability to use chemistry terminology, nomenclature, conventions and units
A3 Knowledge of characteristics of the different states of matter and theories used to describe them
A4 Knowledge of main types of chemical reaction and characteristics of each
A5 Understanding of principles of thermodynamics and its applications in chemistry
A6 Knowledge of chemical elements and their compounds, synthesis, structure, properties and reactivity
A8 Knowledge of principles of quantum mechanics and atomic and molecular structure
A9 Knowledge of structural characteristics of chemical and stereochemical compounds, and basic methods of structural analysis and research
A10 Knowledge of chemical kinetics, catalysis and reaction mechanisms
A14 Ability to demonstrate knowledge and understanding of concepts, principles and theories in chemistry
A15 Ability to recognise and analyse new problems and develop solution strategies
A16 Ability to source, assess and apply technical bibliographical information and data relating to chemistry
A24 Ability to explain chemical processes and phenomena clearly and simply
A25 Ability to recognise and analyse link between chemistry and other disciplines, and presence of chemical processes in everyday life
B1 Learning to learn
B2 Effective problem solving
B3 Application of logical, critical, creative thinking
B4 Working independently on own initiative
B5 Teamwork and collaboration
B7 Effective workplace communication
C1 Ability to express oneself accurately in the official languages of Galicia (oral and in written)
C2 Oral and written proficiency in a foreign language
C6 Ability to assess critically the knowledge, technology and information available for problem solving
C7 Acceptance as a professional and as a citizen of importance of lifelong learning
C8 Understanding role of research, innovation and technology in socio-economic and cultural development

Learning aims
Learning outcomes Study programme competences
To know the structure and the nature of chemical bonding in coordination compounds. A1
A3
A6
A8
A9
A14
A15
A16
A24
A25
 B1
B2
B3
B4
B5
B7
 C1
C2
C6
C7
C8
To know the thermodynamic aspects related to the stability of coordination compounds. A1
A5
A9
A14
A15
A16
 B1
B2
B3
B4
B5
B7
 C1
C2
C6
C7
C8
To know the most important reaction mechanisms for coordination compounds. A1
A4
A9
A10
A14
A15
A16
 B1
B2
B3
B4
B5
B7
 C1
C2
C6
C7
C8
To know the structure of inorganic solids. A1
A3
A6
A9
A14
A15
A16
 B1
B2
B3
B4
B5
B7
 C1
C2
C6
C7
C8
To know the microstructure of inorganic solids. A1
A6
A9
A14
A15
A16
A24
A25
 B1
B2
B3
B4
B5
B7
 C1
C2
C6
C7
C8
To know the nature of chemical bonding in inorganic solids. A1
A3
A5
A6
A8
A9
A14
A15
A16
A24
A25
 B1
B2
B3
B4
B5
B7
 C1
C2
C6
C7
C8

Contents
Topic Sub-topic
1.- Introduction to Coordination Chemistry. Introduction.
2.- Bonding in coordination compounds. - Valence bond theory.
- Crystal field theory.
- Molecular orbital theory.
3.- Thermodynamic stability of coordination compounds. - Introduction: stability/instability vs. inertia/lability.
- Stability constans.
- Factors that affect the stability of complexes.
4.- Reaction mechanisms of coordination compounds. - Ligand substitution reactions.
- Redox reactions.
5.- Introduction to Solid State Chemistry. Introduction.
6.- Ideal solids: Structural aspects and bonding. - Structures of solids.
- Bonding in solids: ionic model, band model.
7.- Real solids: defects in solids, examples of inorganic solids with relevant properties. - Defects in solids.
- Examples of solids with important properties.

Planning
Methodologies / tests Competencies Ordinary class hours Student’s personal work hours Total hours
Guest lecture / keynote speech A1 A25 B7 C2 C8 28 42 70
Workshop A5 A6 A8 A9 A10 A14 A16 B5 C2 7 21 28
Problem solving A3 A4 A15 A24 B1 B2 B3 B4 C1 C2 C6 C7 7 24.5 31.5
Mixed objective/subjective test A1 A3 B2 B3 B4 B7 C1 C2 4 15.5 19.5
 
Personalized attention 1 0 1
 
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

Methodologies
Methodologies Description
Guest lecture / keynote speech Lectures to introduce the most relevant issues related to the contents of the course, highlighting the most important aspects.
Workshop Practical activities to aid the understanding of the more difficult aspects of the course.
Problem solving Classes oriented to solve problems and exercises previously proposed to the students, so that they can work on them in advance.
Mixed objective/subjective test Final written exams will take place following the schedule agreed by the institution with the aim to evaluate the global knowledge, understanding and skills acquired by each student.

Personalized attention
Methodologies
Guest lecture / keynote speech
Problem solving
Workshop
Description
The didactic methodology proposed for this course relies on the individual work of the student, which is the main responsible of the educational process. Nevertheless, it is of crucial importance to achieve a close interaction between the student and the instructor, which will guide the student throughout the process. Thanks to this interaction and the different assessment activities planned for the course the instructor will determine the extent to which the student has achieved the objectives of each topic and provide appropriate advice individually. This guidance will take place at the tutoring hours of the lecturer (the timetable will be indicated at the beginning of the course) or at any other moment agreed by the student and the instructor. Students can ask for additional tutoring sessions if required.

Those students having a part-time dedication to the course, and thus waiver of assistance to the on-site academic activities according to the regulations of UDC, follow different dynamics that require additional personalized attention. The waiver applied to each student is fixed after a personal interview with the instructor on the basis of the student's personal circumstances. The tutoring sessions are scheduled in this interview upon agreement between the student and the instructor, who fixes the number of problem-solving workshops to be graded using this methodology and the deadlines for the presentation of the problem-sheets. The grade obtained by the student in these activities will correspond to the average of the grades achieved for each workshop. The tutoring sessions focus on discussions about the contents of the course and revision of the problem sheets solved by the student. The student might also have short tests to assess the degree of compliance with the objectives of the course.

Assessment
Methodologies Competencies Description Qualification
Mixed objective/subjective test A1 A3 B2 B3 B4 B7 C1 C2 Final exam that may include short questions, multiple choice questions, and problems similar to those solved throughout the course. 70
Problem solving A3 A4 A15 A24 B1 B2 B3 B4 C1 C2 C6 C7 Aspects to be evaluated: The solution of the proposed problems and exercises in the seminars by the students, their participation in the discussions, and their interaction with the other students.
WORKSHOPS and PROBLEM SOLVING will be assessed jointly. 		30
Workshop A5 A6 A8 A9 A10 A14 A16 B5 C2 Aspects to be evaluated: the exercises and activities carried out in the working sessions, the participation on the discussions, the interaction with the other students.
WORKSHOPS and PROBLEM SOLVING will be assessed jointly. 		0
 
Assessment comments

The final grade is the sum of:



- "Mixed test": up to 7 points.



- "Problem solving" + "workshop": up to 3 points.

The assessment through mixed-tests will be split into two parts (two
exams). The first partial test will be performed before the end of the
semester. Only students that had attended and participated at least in 80% of
the activities of the course (applied to lectures, seminars and workshops). The
second partial exam will take place at the time scheduled for the final exam (1st opportunity). Those students that will obtain a minimum of 3.15 points (out of a
maximum of 7) in the two partial tests will pass the course and will be graded
with the average mark of the two partial tests. Students that obtain less than
3.15 points in one or the two partial tests will be graded with the lowest mark
among the two. In the latter case the grade obtained in seminars and workshops
will not be considered. In the official exams, named as 1st and 2nd opportunities, students will
be assessed with a final exam (in case the marks of the two partial tests were
lower than 3.15), or can choose to have an exam just of the part in which they
obtained less than 3.15 points). The grade obtained from participation in
seminars and workshops will apply to both the assessment in 1st and 2nd opportinities.

Passing the
course will require obtaining a minimum of 5.00 points (out of a maximum of 10)
and a minimum of 3.15 (maximum 7) in the mixed tests. Given that the course
applies a continuum assessment model, the progress of the students during the
semester can be awarded with up to one extra point, which will be added to the
final grade if the mark in mixed tests is 3.15 or higher (maximum 7).

Since this is a continuous assessment model: the progression of the student throughout the semester can be graded with a maximum of 1 point that could be added to the final mark when the minimum in the mixed test is achieved.



The student will be graded if his/her participation in the course represents more than 20% of the global activities of the course.



In accordance with the regulations (“Probas de Avaliación e Actas de Cualificación de Grao e Mestrado”), the "2nd opportunity" is only a second chance for the final exam (“mixed test”). The grade on this 2nd opportunity of the “mixed test” will be added to those obtained during the course in “problem solving” + “workshops” . The percentages are the same as in the "1st opportunity".



“Matricula de honor (MH)” is the highest grade, awarded to very outstanding students having passed the course in the “1st opportunity”. MH can be achieved in the "2nd opportunity" only if still available.



Only in very exceptional circumstances (adequately justified) the student may be exempted from the on going evaluation process. In that case, he must pass a special examination to prove, without any doubt, the overall level of knowledge and skills.



The teaching methodology and all activities performed during the course are designed according to a continuous evaluation model scheduled for a single academic year. Thus, the possibility of transferring partial qualifications to successive academic courses is not allowed.



Those students having a part-time dedication to the course, and thus waiver of assistance to the on-site academic activities according to the regulations of UDC, will be assessed as follows: 30% of the overall grade corresponds to the assessment of the personal work of the student (solution of problem-sheets), short tests and the personal interviews. The grades corresponding to this part are valid for both the first (June) and second (July) opprotunities. The remaining 70% of the grade corresponds to the assessment of the mixed test. Students have a second chance to be assessed with a mixed test in the 2nd opportunity. The grade obtained in the 2nd opprtunity for the mixed test replaces that obtained in the 1st one. Given that the assessment of the course is based on a continuum-assessment model, students that do not pass the course will be treated as new students in the subsequent academic years.

Sources of information
Basic J. Ribas Gispert (2008). "Coordination Chemistry" (versión en ingles de "Química de Coordinación"). Willey-VCH, Weinheim
M.T. Weller (1999). "Inorganic Materials Chemistry". Oxford University Press, Oxford
J. Rivas Gispert (2000). "Química de Coordinación". Ediciones Omega S.A.
P. W. Atkins, T. L. Overton, J. P. Rourke, M. T. Weller y F. A. Armstrong (2008). "Química Inorgánica de Shriver y Atkins" Versión en español de la 4ª edición de "Shriver and Atkins' Inorganic Chemistry". McGraw-Hill Interamericana
P. W. Atkins, T. L. Overton, J. P. Rourke, M. T. Weller and F. A. Armstrong. (2009). "Shriver and Atkins' Inorganic Chemistry" 5th ed. W. H. Freeman and company, New York
A.R. West (1984). "Solid State Chemistry and its Aplications". John Wiley & Sons, New York
L. Smart & E. Moore (1992). "Solid State Chemistry: an Introduction". Chapman & Hall, London
L. Smart & E. Moore (1995). “Una introducción a la química del estado sólido”, versión en español de "Solid State Chemistry: an Introduction". Ed. Reverté, Barcelona

Complementary S. F. A. Kettle (1998). "Physical Inorganic Chemistry. A Coordination Chemistry Approach". Oxford University Press
A.F. Wells (1978). “Química inorgánica estructural” Versión española de la 4ª Ed.. Ed. Reverté, Barcelona
A.F. Wells (1984). “Structural Inorganic Chemistry” 5th Ed.. Oxford Univesity Press, London


Recommendations
Subjects that it is recommended to have taken before
Physical Chemistry 1/610G01016
Physical Chemistry 2/610G01017
Inorganic Chemistry 1/610G01021
Inorganic Chemistry 2/610G01022

Subjects that are recommended to be taken simultaneously

Subjects that continue the syllabus
Inorganic Chemistry 4/610G01024
Advanced Inorganic Chemistry/610G01025
Materials Science/610G01035

Other comments


(*)The teaching guide is the document in which the URV publishes the information about all its courses. It is a public document and cannot be modified. Only in exceptional cases can it be revised by the competent agent or duly revised so that it is in line with current legislation.